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review.coreboot.org / coreboot / 3d523635e8cb4614b03d7ef64f9c7a35dfbb8bcd
commit3d523635e8cb4614b03d7ef64f9c7a35dfbb8bcd[log] [tgz]
authorFelix Held <felix-coreboot@felixheld.de>Wed Dec 08 00:12:06 2021 +0100
committerFelix Held <felix-coreboot@felixheld.de>Thu Dec 09 14:43:24 2021 +0000
treea8bb54e62742798553ac8b356c995317b3b39bf0
parentb33f351a59af63e8798a9bd7425a0cd79c045aca [diff]
soc/amd/stoneyridge: use common fch_spi_early_init

All SPI interface setup related functionality that Stoneyridge
implemented in its southbridge code is already present in the common AMD
SoC code, so use that code instead.

The common fch_spi_early_init function requires the SPI controller's
base address to be set, so call lpc_set_spibase(SPI_BASE_ADDRESS) right
before it. fch_spi_early_init then calls lpc_enable_spi_rom and
lpc_enable_spi_prefetch which can be removed from the board code now.
Next it calls fch_spi_configure_4dw_burst which does the same as the now
removed sb_disable_4dw_burst function when
SOC_AMD_COMMON_BLOCK_SPI_4DW_BURST is set to n which is the default.
This option can also only be set to y for SoCs that aren't Stoneyridge.
Finally fch_spi_early_init calls fch_spi_config_modes which configures
the SPI mode and speed settings according to the Kconfig settings and
the settings in the amdfw part. On Kahlee this was done by calls to
sb_read_mode and sb_set_spi100 before. The previous patch added the
remaining Kconfig settings, so the resulting register values don't
change in the non-EM100 case. In the EM100 case the TPM speed is changed
from 64 to 16 MHz.

TEST=Both the non-EM100 mode with a real SPI flash and the EM100 mode
with a first-generation EM100 results in Google/Barla reaching the
payload and the show_spi_speeds_and_modes call in bootblock prints the
expected settings:

relevant bootblock console output in non-EM100 case:

SPI normal read speed: 33.33 MHz
SPI fast read speed: 66.66 Mhz
SPI alt read speed: 66.66 Mhz
SPI TPM read speed: 66.66 Mhz
SPI100: Enabled
SPI Read Mode: Dual IO (1-2-2)

relevant bootblock console output in EM100 case:

SPI normal read speed: 16.66 MHz
SPI fast read speed: 16.66 MHz
SPI alt read speed: 16.66 MHz
SPI TPM read speed: 16.66 MHz
SPI100: Enabled
SPI Read Mode: Normal Read (up to 33M)

Signed-off-by: Felix Held <felix-coreboot@felixheld.de>
Change-Id: I8f37a3b040808d6a5a8e07d39b6d4a1e1981355c
Reviewed-on: https://review.coreboot.org/c/coreboot/+/59968
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Marshall Dawson <marshalldawson3rd@gmail.com>
3 files changed
tree: a8bb54e62742798553ac8b356c995317b3b39bf0
  1. 3rdparty/
  2. configs/
  3. Documentation/
  4. LICENSES/
  5. payloads/
  6. spd/
  7. src/
  8. tests/
  9. util/
  10. .checkpatch.conf
  11. .clang-format
  12. .editorconfig
  13. .gitignore
  14. .gitmodules
  15. .gitreview
  16. AUTHORS
  17. COPYING
  18. gnat.adc
  19. MAINTAINERS
  20. Makefile
  21. Makefile.inc
  22. README.md
  23. toolchain.inc
README.md

coreboot README

coreboot is a Free Software project aimed at replacing the proprietary BIOS (firmware) found in most computers. coreboot performs a little bit of hardware initialization and then executes additional boot logic, called a payload.

With the separation of hardware initialization and later boot logic, coreboot can scale from specialized applications that run directly firmware, run operating systems in flash, load custom bootloaders, or implement firmware standards, like PC BIOS services or UEFI. This allows for systems to only include the features necessary in the target application, reducing the amount of code and flash space required.

coreboot was formerly known as LinuxBIOS.

Payloads

After the basic initialization of the hardware has been performed, any desired "payload" can be started by coreboot.

See https://www.coreboot.org/Payloads for a list of supported payloads.

Supported Hardware

coreboot supports a wide range of chipsets, devices, and mainboards.

For details please consult:

Build Requirements

  • make
  • gcc / g++ Because Linux distribution compilers tend to use lots of patches. coreboot does lots of "unusual" things in its build system, some of which break due to those patches, sometimes by gcc aborting, sometimes - and that's worse - by generating broken object code. Two options: use our toolchain (eg. make crosstools-i386) or enable the ANY_TOOLCHAIN Kconfig option if you're feeling lucky (no support in this case).
  • iasl (for targets with ACPI support)
  • pkg-config
  • libssl-dev (openssl)

Optional:

  • doxygen (for generating/viewing documentation)
  • gdb (for better debugging facilities on some targets)
  • ncurses (for make menuconfig and make nconfig)
  • flex and bison (for regenerating parsers)

Building coreboot

Please consult https://www.coreboot.org/Build_HOWTO for details.

Testing coreboot Without Modifying Your Hardware

If you want to test coreboot without any risks before you really decide to use it on your hardware, you can use the QEMU system emulator to run coreboot virtually in QEMU.

Please see https://www.coreboot.org/QEMU for details.

Website and Mailing List

Further details on the project, a FAQ, many HOWTOs, news, development guidelines and more can be found on the coreboot website:

https://www.coreboot.org

You can contact us directly on the coreboot mailing list:

https://www.coreboot.org/Mailinglist

Copyright and License

The copyright on coreboot is owned by quite a large number of individual developers and companies. Please check the individual source files for details.

coreboot is licensed under the terms of the GNU General Public License (GPL). Some files are licensed under the "GPL (version 2, or any later version)", and some files are licensed under the "GPL, version 2". For some parts, which were derived from other projects, other (GPL-compatible) licenses may apply. Please check the individual source files for details.

This makes the resulting coreboot images licensed under the GPL, version 2.